CN202628637U - Hydraulic control system of supporting leg swing oil cylinder and supporting leg of engineering machinery - Google Patents
Hydraulic control system of supporting leg swing oil cylinder and supporting leg of engineering machinery Download PDFInfo
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- CN202628637U CN202628637U CN 201220324134 CN201220324134U CN202628637U CN 202628637 U CN202628637 U CN 202628637U CN 201220324134 CN201220324134 CN 201220324134 CN 201220324134 U CN201220324134 U CN 201220324134U CN 202628637 U CN202628637 U CN 202628637U
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- 230000002457 bidirectional effect Effects 0.000 claims abstract description 32
- 239000002828 fuel tank Substances 0.000 claims description 13
- 239000000945 filler Substances 0.000 claims description 9
- 239000012530 fluid Substances 0.000 abstract 4
- 230000009193 crawling Effects 0.000 abstract 1
- 239000003921 oil Substances 0.000 description 99
- 239000010720 hydraulic oil Substances 0.000 description 21
- 238000010586 diagram Methods 0.000 description 7
- 230000000903 blocking effect Effects 0.000 description 4
- 230000002159 abnormal effect Effects 0.000 description 3
- 230000000694 effects Effects 0.000 description 2
- 238000009434 installation Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 150000001875 compounds Chemical class 0.000 description 1
- 230000001788 irregular Effects 0.000 description 1
- 210000000664 rectum Anatomy 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
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Abstract
The utility model discloses a hydraulic control system of landing leg swing hydro-cylinder, including the hydraulic pump, the switching-over valve, two-way hydraulic pressure lock and swing hydro-cylinder, the hydraulic pump communicates with the oil inlet of switching-over valve, two work hydraulic fluid ports of switching-over valve communicate with the pole chamber and the rodless chamber that have of swing hydro-cylinder respectively, two-way hydraulic pressure lock is connected on the pipeline between two work hydraulic fluid ports of switching-over valve and the pole chamber and the rodless chamber that have of swing hydro-cylinder, wherein, still include two one-way throttle valves, the forward port of its check valve communicates with the pole chamber and the rodless chamber that have of swing hydro-cylinder respectively, reverse port communicates with two work hydraulic fluid ports of switching-over valve respectively, perhaps the forward port communicates with two work hydraulic fluid ports of switching-over valve respectively, reverse port communicates with the pole chamber and the rodless. The utility model also discloses an engineering machine tool's landing leg. The hydraulic control system enables the extending speed and the retracting speed of the piston rod of the swing oil cylinder to be equal, and avoids the crawling of the swing oil cylinder and the frequent opening and closing of the bidirectional hydraulic lock in small flow.
Description
Technical field
The utility model relates to engineering machinery field, particularly, relates to a kind of supporting leg of hydraulic control system and engineering machinery of supporting leg oscillating oil cylinder.
Background technique
The oil cylinder of control supporting leg swing generally all is installed on the engineering machinery such as concrete mixer, hoist, is illustrated in figure 1 as the schematic diagram of the hydraulic control system of control supporting leg oscillating oil cylinder commonly used at present.This hydraulic control system comprises oil hydraulic pump 1, three six-way transfer valves 2, bidirectional hydraulic lock 3 and oscillating oil cylinders 4; Said oil hydraulic pump 1 is connected with two filler openings of said three six-way transfer valves 2; Two actuator ports of said three six-way transfer valves 2 are connected with rodless cavity with the rod chamber of said oscillating oil cylinder 4 respectively, and said bidirectional hydraulic lock 3 is connected on the rod chamber and the pipeline between the rodless cavity of two actuator ports and said oscillating oil cylinder 4 of said three six-way transfer valves 2.Engine driven Hydraulic Pump 1, the hydraulic oil of being exported by oil hydraulic pump 1 gets in the oscillating oil cylinders 4 through three six-way transfer valves 2 and bidirectional hydraulic lock 3, thus the piston rod of driving oscillating oil cylinder 4 stretches out or withdraws, and then realize opening or regaining of supporting leg.
Because the volume of the rod chamber of oscillating oil cylinder and rodless cavity is different, cause the piston rod of oscillating oil cylinder to stretch out and the speed of withdrawing unequal, promptly the supporting leg speed opening and regain is inconsistent, it is not steady to cause supporting leg to move.When occurring bigger flowed fluctuation in the loop of hydraulic control system, these flowed fluctuation meetings are directly passed to oscillating oil cylinder, so cause supporting leg open and regain remarkable action.And in the loop of hydraulic control system under the less situation of flow; The situation of oscillating oil cylinder interruptible gas supply appears giving again easily; And then can cause that oscillating oil cylinder " creeps " (occurring the irregular phenomenon of speed off and on when so-called " creeping " is exactly the executive component low-speed motion), perhaps frequent keying of the bidirectional hydraulic lock in the hydraulic control system and cause producing abnormal sound, noise.
The model utility content
The purpose of the utility model provides a kind of supporting leg of hydraulic control system and engineering machinery of supporting leg oscillating oil cylinder; This hydraulic control system makes the stretching out with retraction speed of piston rod of oscillating oil cylinder equate, oscillating oil cylinder creeps and the frequent switching of bidirectional hydraulic lock when avoiding small flow.
To achieve these goals; The one side of the utility model provides a kind of hydraulic control system of supporting leg oscillating oil cylinder; This hydraulic control system comprises oil hydraulic pump, selector valve, bidirectional hydraulic lock and oscillating oil cylinder; Said oil hydraulic pump is communicated with the filler opening of said selector valve; Two actuator ports of said selector valve are communicated with the rod chamber and the rodless cavity of said oscillating oil cylinder respectively, and said bidirectional hydraulic lock is connected on the rod chamber and the pipeline between the rodless cavity of two actuator ports and said oscillating oil cylinder of said selector valve, wherein; Said hydraulic control system also comprises two one-way throttle valves; These two one-way throttle valves are connected on two actuator ports and the pipeline between the said bidirectional hydraulic lock of said selector valve, and the forward port of the one-way valve of said one-way throttle valve is communicated with the rod chamber and the rodless cavity of said oscillating oil cylinder respectively, and reverse port is communicated with two actuator ports of said selector valve respectively; Perhaps the forward port of the one-way valve of said one-way throttle valve is communicated with two actuator ports of said selector valve respectively, and reverse port is communicated with the rod chamber and the rodless cavity of said oscillating oil cylinder respectively.
Preferably, the section area of the rod chamber of the opening ratio of the throttle valve of said one-way throttle valve and said oscillating oil cylinder and rodless cavity is than equating.
Preferably, the aperture can regulate of the throttle valve of said one-way throttle valve.
Preferably, said selector valve is three six-way transfer valves, and another actuator port and the return opening of these three six-way transfer valves all are communicated with fuel tank.
Preferably, said selector valve is a three position four-way directional control valve, and the return opening of this three position four-way directional control valve is communicated with fuel tank.
The one side of the utility model provides a kind of supporting leg of engineering machinery, and this supporting leg comprises the hydraulic control system of supporting leg oscillating oil cylinder, and wherein, the hydraulic control system of this supporting leg oscillating oil cylinder is the hydraulic control system of supporting leg oscillating oil cylinder recited above.
Pass through technique scheme; Because one-way throttle valve is set respectively on the pipeline between selector valve and the bidirectional hydraulic lock; And the installation direction of two one-way throttle valves is opposite, promptly in working order down, and the one-way valve forward conduction of one of them one-way throttle valve; The one-way valve of another one-way throttle valve oppositely ends; Realization to oscillating oil cylinder stretch out with retracted mode under the flow control of hydraulic oil, thereby make the stretching out of piston rod of oscillating oil cylinder equate with retraction speed, and then guarantee that supporting leg is opened and withdrawal speed equates.In addition, because the Flow-rate adjustment effect of one-way throttle valve, the flowed fluctuation in the hydraulic control system can not be directly delivered on the oscillating oil cylinder, prevents that supporting leg from opening and regaining unusually.The abnormal sound that the frequent switching of the creeping phenomenon of oscillating oil cylinder and bidirectional hydraulic lock brings when in addition, one-way throttle valve being set can also avoiding small flow.
Other feature and advantage of the utility model will partly specify in embodiment subsequently.
Description of drawings
Accompanying drawing is the further understanding that is used to provide the utility model, and constitutes the part of specification, is used to explain the utility model with following embodiment, but does not constitute the restriction to the utility model.In the accompanying drawings:
Fig. 1 is the schematic diagram of hydraulic control system of the supporting leg oscillating oil cylinder of existing technology;
Fig. 2 is a kind of schematic diagram of working state of hydraulic control system of the supporting leg oscillating oil cylinder of the utility model;
Fig. 3 is the schematic diagram of another kind of working state of hydraulic control system of the supporting leg oscillating oil cylinder of the utility model;
Fig. 4 is the schematic diagram of another working state of hydraulic control system of the supporting leg oscillating oil cylinder of the utility model;
Fig. 5 is the schematic diagram of another kind of mode of execution of hydraulic control system of the supporting leg oscillating oil cylinder of the utility model; And
Fig. 6 is the schematic diagram of another mode of execution of hydraulic control system of the supporting leg oscillating oil cylinder of the utility model.
Description of reference numerals
1 oil hydraulic pump, 2 selector valves
3 bidirectional hydraulic locks, 4 oscillating oil cylinders
5 one-way throttle valves, 6 fuel tanks
Embodiment
Be elaborated below in conjunction with the embodiment of accompanying drawing to the utility model.Should be understood that embodiment described herein only is used for explanation and explains the utility model, is not limited to the utility model.
Like Fig. 2-shown in Figure 4; The one side of the utility model provides a kind of hydraulic control system of supporting leg oscillating oil cylinder; This hydraulic control system comprises oil hydraulic pump 1, selector valve 2, bidirectional hydraulic lock 3 and oscillating oil cylinder 4; Said oil hydraulic pump 1 is communicated with the filler opening of said selector valve 2; Two actuator ports of said selector valve 2 are communicated with the rod chamber and the rodless cavity of said oscillating oil cylinder 4 respectively, and said bidirectional hydraulic lock 3 is connected on the rod chamber and the pipeline between the rodless cavity of two actuator ports and said oscillating oil cylinder 4 of said selector valve 2, wherein; Said hydraulic control system also comprises two one-way throttle valves 5; These two one-way throttle valves 5 are connected on two actuator ports and the pipeline between the said bidirectional hydraulic lock 3 of said selector valve 2, and the forward port of the one-way valve of said one-way throttle valve 5 is communicated with the rod chamber and the rodless cavity of said oscillating oil cylinder 4 respectively, and reverse port is communicated with two actuator ports of said selector valve 2 respectively; The forward port of the one-way valve of perhaps said one-way throttle valve 5 is communicated with two actuator ports of said selector valve 2 respectively, and reverse port is communicated with the rod chamber and the rodless cavity of said oscillating oil cylinder 4 respectively.
One-way valve was in the port of on state when the forward port of the one-way valve of one-way throttle valve 5 was meant from this forward port oil-feed; One-way valve was in the port of cut-off state when the reverse port of the one-way valve of one-way throttle valve 5 was meant from this reverse port oil-feed.
Owing on the pipeline between selector valve 2 and the bidirectional hydraulic lock 3, one-way throttle valve 5 is set respectively; And the installation direction of two one-way throttle valves 5 is opposite; Promptly in working order down; The one-way valve forward conduction of one of them one-way throttle valve 5, the one-way valve of another one-way throttle valve 5 oppositely ends, realize to oscillating oil cylinder 4 stretch out with retracted mode under the flow control of hydraulic oil; Thereby make the stretching out of piston rod of oscillating oil cylinder 4 equate, and then guarantee that supporting leg is opened and withdrawal speed equates with retraction speed.In addition, because the Flow-rate adjustment effect of one-way throttle valve 5, the flowed fluctuation in the hydraulic control system can not be directly delivered on the oscillating oil cylinder 4, prevents that supporting leg from opening and regaining unusually.The abnormal sound that the frequent switching of the creeping phenomenon of oscillating oil cylinder 4 and bidirectional hydraulic lock 3 brings when in addition, one-way throttle valve 5 being set can also avoiding small flow.
Particularly; Because stretching out and the aperture decision of retraction speed of the piston rod of oscillating oil cylinder 4 by the throttle valve of one-way throttle valve 5; The opening ratio of the throttle valve of two one-way throttle valves 5 is set to area with the cross section of the rod chamber of oscillating oil cylinder 4 and rodless cavity than corresponding; The section area of rod chamber and rodless cavity of opening ratio and said oscillating oil cylinder 4 of throttle valve that is said one-way throttle valve 5 is than equating; To realize that oscillating oil cylinder 4 is stretched out the flow control with retracted mode hydraulic oil down, it is equal with withdrawal speed to make supporting leg open.
As shown in Figure 5; Regulate the flow of one-way throttle valve 5 for ease; Preferably, the aperture can regulate of the throttle valve of said one-way throttle valve 5, thus the aperture of the throttle valve through regulating one-way throttle valve 5 realizes the Flow-rate adjustment to one-way throttle valve 5; With the oscillating oil cylinder 4 that is adapted to different structure and model, make that the Applicable scope of this hydraulic control system is wider.
Like Fig. 2-shown in Figure 5; For the adjustment of the switch operation of convenient selector valve 2 to the working state of hydraulic control system; Preferably; Said selector valve 2 is three six-way transfer valves, and another actuator port and the return opening of these three six-way transfer valves all are communicated with fuel tank, thereby makes things convenient for the oil return of hydraulic control system.Certain three six-way transfer valves can be manually operated type, electromagnetic type or hyraulic controlled type.When selector valve 2 was in the different working position, hydraulic control system was in the different working state, and oscillating oil cylinder 4 is correspondingly realized different actions and function, to drive the supporting leg motion.
As the another kind of mode of execution of selector valve 2, preferably, said selector valve 2 is a three position four-way directional control valve, and the return opening of this three position four-way directional control valve is communicated with fuel tank.In the control of oil cylinder, adopt oil-feed and the oil return of three position four-way directional control valve more at large, to realize the action of oil cylinder as main valve control oil cylinder.When three position four-way directional control valve was in meta, oscillating oil cylinder 4 kept present situation and is failure to actuate; When three position four-way directional control valve was in right position, supporting leg was opened; When three position four-way directional control valve is in position, a left side, the supporting leg withdrawal.
Describe below in conjunction with the working principle of accompanying drawing the hydraulic control system of supporting leg oscillating oil cylinder.
As shown in Figure 2; When three six-way transfer valves are in meta; A filler opening of three six-way transfer valves is communicated with one of them actuator port, and this one of them actuator port is communicated with fuel tank, thereby the hydraulic oil of carrying from oil hydraulic pump 1 directly flows back to fuel tank through three six-way transfer valves; This moment, oscillating oil cylinder 4 was failure to actuate, and remained on standing state.
As shown in Figure 3, when three six-way transfer valves were in right position, one of them filler opening was communicated with the actuator port of the rodless cavity that is communicated to oscillating oil cylinder 4; The actuator port that is communicated to the rod chamber of oscillating oil cylinder 4 is communicated with return opening; The hydraulic oil of carrying from oil hydraulic pump 1 flows to one of them one-way throttle valve 5 through three six-way transfer valves, and the one-way valve of this one-way throttle valve 5 is in reverse blocking state, and hydraulic oil can only flow to bidirectional hydraulic lock 3 through the throttle valve of one-way throttle valve 5; This moment, this one-way throttle valve 5 was brought into play throttling actions; Flow in the rodless cavity of oscillating oil cylinder 4 through bidirectional hydraulic lock 3 then, promote piston rod and stretch out, thereby make supporting leg open; Hydraulic oil in the rod chamber of oscillating oil cylinder 4 flows to one-way throttle valve 5 through bidirectional hydraulic lock 3 then; The one-way valve of this one-way throttle valve 5 is in the forward conduction state; Hydraulic oil can flow to three six-way transfer valves through the throttle valve and the one-way valve of one-way throttle valve 5; This moment, this one-way throttle valve 5 was not brought into play throttling action, and the return opening through three six-way transfer valves flows back to fuel tank 6 at last.Wherein, The speed that supporting leg is opened is by the aperture decision of the throttle valve of the one-way throttle valve on the left road 5; Promptly when selecting one-way throttle valve 5, if select the uncontrollable one-way throttle valve 5 of aperture of throttle valve, the latus rectum of throttle valve is adapted to the traffic requirement of oscillating oil cylinder 4 at this moment; If select the adjustable one-way throttle valve 5 of aperture of throttle valve, this moment, the aperture of throttle valve can be adjusted to the traffic requirement that is adapted to oscillating oil cylinder 4.
As shown in Figure 4, when three six-way transfer valves were in position, a left side, one of them filler opening was communicated with the actuator port of the rod chamber that is communicated to oscillating oil cylinder 4; The actuator port that is communicated to the rodless cavity of oscillating oil cylinder 4 is communicated with return opening; The hydraulic oil of carrying from oil hydraulic pump 1 flows to one of them one-way throttle valve 5 through three six-way transfer valves, and the one-way valve of this one-way throttle valve 5 is in reverse blocking state, and hydraulic oil can only flow to bidirectional hydraulic lock 3 through the throttle valve of one-way throttle valve 5; This moment, this one-way throttle valve 5 was brought into play throttling actions; Flow in the rod chamber of oscillating oil cylinder 4 through bidirectional hydraulic lock 3 then, promote the piston rod withdrawal, thereby make supporting leg regain; Hydraulic oil in the rodless cavity of oscillating oil cylinder 4 flows to one-way throttle valve 5 through bidirectional hydraulic lock 3 then; The one-way valve of this one-way throttle valve 5 is in the forward conduction state; Hydraulic oil can flow to three six-way transfer valves through the throttle valve and the one-way valve of one-way throttle valve 5; This moment, this one-way throttle valve 5 was not brought into play throttling action, and the return opening through three six-way transfer valves flows back to fuel tank 6 at last.Wherein, the speed of supporting leg withdrawal is by the aperture decision of the throttle valve of the one-way throttle valve on the right wing 5.
As shown in Figure 6; Forward port for the one-way valve of one-way throttle valve 5 is communicated with two actuator ports of selector valve 2 respectively; The mode of execution that reverse port is communicated with the rod chamber and the rodless cavity of oscillating oil cylinder 4 respectively; Its meta state is identical with above-mentioned mode of execution, and the difference in the face of both describes down.
When three six-way transfer valves are in right position; One of them filler opening is communicated with the actuator port of the rodless cavity that is communicated to oscillating oil cylinder 4, and the actuator port that is communicated to the rod chamber of oscillating oil cylinder 4 is communicated with return opening, and the hydraulic oil of carrying from oil hydraulic pump 1 flows to one of them one-way throttle valve 5 through three six-way transfer valves; The one-way valve of this one-way throttle valve 5 is in the forward conduction state; Hydraulic oil can flow to bidirectional hydraulic lock 3 through the throttle valve and the one-way valve of one-way throttle valve 5, and this moment, this one-way throttle valve 5 was not brought into play throttling action, flow in the rodless cavity of oscillating oil cylinder 4 through bidirectional hydraulic lock 3 then; The promotion piston rod stretches out, thereby makes supporting leg open; Hydraulic oil in the rod chamber of oscillating oil cylinder 4 flows to one-way throttle valve 5 through bidirectional hydraulic lock 3 then; The one-way valve of this one-way throttle valve 5 is in reverse blocking state; Hydraulic oil can only flow to three six-way transfer valves through the throttle valve of one-way throttle valve 5; This moment, this one-way throttle valve 5 was brought into play throttling actions, and the return opening through three six-way transfer valves flows back to fuel tank 6 at last.Wherein, the speed opened of supporting leg is by the aperture decision of the throttle valve of the one-way throttle valve on the right wing 5.
When three six-way transfer valves are in position, a left side; One of them filler opening is communicated with the actuator port of the rod chamber that is communicated to oscillating oil cylinder 4, and the actuator port that is communicated to the rodless cavity of oscillating oil cylinder 4 is communicated with return opening, and the hydraulic oil of carrying from oil hydraulic pump 1 flows to one of them one-way throttle valve 5 through three six-way transfer valves; The one-way valve of this one-way throttle valve 5 is in the forward conduction state; Hydraulic oil can flow to three six-way transfer valves through the throttle valve and the one-way valve of one-way throttle valve 5, and this moment, this one-way throttle valve 5 was not brought into play throttling action, flow in the rod chamber of oscillating oil cylinder 4 through bidirectional hydraulic lock 3 then; The withdrawal of promotion piston rod, thus make supporting leg regain; Hydraulic oil in the rodless cavity of oscillating oil cylinder 4 flows to one-way throttle valve 5 through bidirectional hydraulic lock 3 then; The one-way valve of this one-way throttle valve 5 is in reverse blocking state; Hydraulic oil can only flow to bidirectional hydraulic lock 3 through the throttle valve of one-way throttle valve 5; This moment, this one-way throttle valve 5 was brought into play throttling actions, and the return opening through three six-way transfer valves flows back to fuel tank 6 at last.Wherein, the speed of supporting leg withdrawal is by the aperture decision of the throttle valve of the one-way throttle valve on the left road 5.
The supporting leg that a kind of engineering machinery also is provided on the other hand of the utility model, this supporting leg comprises the hydraulic control system of supporting leg oscillating oil cylinder, wherein, the hydraulic control system of this supporting leg oscillating oil cylinder is the hydraulic control system of supporting leg oscillating oil cylinder recited above.Because the hydraulic control system of supporting leg oscillating oil cylinder can be controlled the stretching out with retraction speed and it is equated of piston rod of oscillating oil cylinder, then makes stretching out with retraction speed of supporting leg equate, has guaranteed the conformity of supporting leg movement velocity, helps operation and control.
More than combine accompanying drawing to describe the preferred implementation of the utility model in detail; But; The utility model is not limited to the detail in the above-mentioned mode of execution; In the technical conceive scope of the utility model, can carry out multiple simple variant to the technological scheme of the utility model, these simple variant all belong to the protection domain of the utility model.
Need to prove in addition; Each concrete technical characteristics described in above-mentioned embodiment under reconcilable situation, can make up through any suitable manner; For fear of unnecessary repetition, the utility model is to the explanation no longer separately of various possible compound modes.
In addition, also can carry out combination in any between the various mode of execution of the utility model, as long as its thought without prejudice to the utility model, it should be regarded as content disclosed in the utility model equally.
Claims (6)
1. the hydraulic control system of a supporting leg oscillating oil cylinder; This hydraulic control system comprises oil hydraulic pump (1), selector valve (2), bidirectional hydraulic lock (3) and oscillating oil cylinder (4); Said oil hydraulic pump (1) is communicated with the filler opening of said selector valve (2); Two actuator ports of said selector valve (2) are communicated with the rod chamber and the rodless cavity of said oscillating oil cylinder (4) respectively; Said bidirectional hydraulic lock (3) is connected on the rod chamber and the pipeline between the rodless cavity of two actuator ports and said oscillating oil cylinder (4) of said selector valve (2); It is characterized in that; Said hydraulic control system also comprises two one-way throttle valves (5); These two one-way throttle valves (5) are connected on two actuator ports and the pipeline between the said bidirectional hydraulic lock (3) of said selector valve (2), and the forward port of the one-way valve of said one-way throttle valve (5) is communicated with the rod chamber and the rodless cavity of said oscillating oil cylinder (4) respectively, and reverse port is communicated with two actuator ports of said selector valve (2) respectively; The forward port of the one-way valve of perhaps said one-way throttle valve (5) is communicated with two actuator ports of said selector valve (2) respectively, and reverse port is communicated with the rod chamber and the rodless cavity of said oscillating oil cylinder (4) respectively.
2. the hydraulic control system of supporting leg oscillating oil cylinder according to claim 1 is characterized in that, the rod chamber of the opening ratio of the throttle valve of said one-way throttle valve (5) and said oscillating oil cylinder (4) and the section area of rodless cavity are than equating.
3. the hydraulic control system of supporting leg oscillating oil cylinder according to claim 1 is characterized in that, the aperture can regulate of the throttle valve of said one-way throttle valve (5).
4. the hydraulic control system of supporting leg oscillating oil cylinder according to claim 1 is characterized in that, said selector valve (2) is three six-way transfer valves, and another actuator port and the return opening of these three six-way transfer valves all are communicated with fuel tank.
5. the hydraulic control system of supporting leg oscillating oil cylinder according to claim 1 is characterized in that, said selector valve (2) is a three position four-way directional control valve, and the return opening of this three position four-way directional control valve is communicated with fuel tank.
6. the supporting leg of an engineering machinery; This supporting leg comprises the hydraulic control system of supporting leg oscillating oil cylinder; It is characterized in that the hydraulic control system of this supporting leg oscillating oil cylinder is the hydraulic control system according to any described supporting leg oscillating oil cylinder among the claim 1-5.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220324134 CN202628637U (en) | 2012-07-05 | 2012-07-05 | Hydraulic control system of supporting leg swing oil cylinder and supporting leg of engineering machinery |
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| Application Number | Priority Date | Filing Date | Title |
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| CN 201220324134 CN202628637U (en) | 2012-07-05 | 2012-07-05 | Hydraulic control system of supporting leg swing oil cylinder and supporting leg of engineering machinery |
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| CN 201220324134 Expired - Fee Related CN202628637U (en) | 2012-07-05 | 2012-07-05 | Hydraulic control system of supporting leg swing oil cylinder and supporting leg of engineering machinery |
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| CN103591064A (en) * | 2013-11-18 | 2014-02-19 | 长沙中联消防机械有限公司 | Landing leg control hydraulic system and engineering vehicle |
| CN106402077A (en) * | 2016-11-29 | 2017-02-15 | 四川凌峰航空液压机械有限公司 | Hydraulic actuator cylinder output speed controllable hydraulic loop system |
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| CN103042915A (en) * | 2012-12-27 | 2013-04-17 | 三一重型装备有限公司 | Hydraulic differential mechanism and vehicle |
| CN103591064A (en) * | 2013-11-18 | 2014-02-19 | 长沙中联消防机械有限公司 | Landing leg control hydraulic system and engineering vehicle |
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| CN106402077A (en) * | 2016-11-29 | 2017-02-15 | 四川凌峰航空液压机械有限公司 | Hydraulic actuator cylinder output speed controllable hydraulic loop system |
| CN106402077B (en) * | 2016-11-29 | 2018-01-09 | 四川凌峰航空液压机械有限公司 | Hydraulic actuator class output speed controlled hydraulic circuit system |
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| CN108035928A (en) * | 2017-12-07 | 2018-05-15 | 徐州徐工随车起重机有限公司 | A kind of regeneration support leg valve and the leg control system equipped with the valve |
| CN108019392A (en) * | 2018-01-27 | 2018-05-11 | 宁波市博尔法液压有限公司 | A kind of hydraulic lock |
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